RU2090215C1 - Device for acting with electric current - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has retunable carrying frequency generator, controllable generators of rectangular and triangular low frequency signals, modulator, adder, unipolar pulse shaper, interrupter, commutation unit, two-channel power amplifier connected with its outputs to action electrodes, two-channel converter, peak detector, integrator, analog-to-digital converter and current indication unit, comparator, safety unit, timer and acoustic warning unit. The device treats patient with alternating current of adjustable frequency and modulation depth so that the treatment can be carried out in continuous and intermittent mode through one or two canals. Treatment with rectangular pulses with unipolar pulses is also applicable through one or two canals with controlled parameters or direct (galvanic) current. EFFECT: enhanced effectiveness in treating disease of locomotor and nerve system. 4 cl, 9 dwg

Description

The device relates to medical equipment, in particular, to devices for exposure to electric shock, and is intended for the treatment of diseases and traumatic injuries of the musculoskeletal and nervous systems by electrical stimulation and central or percutaneous electroanalgesia. The device can also be used to study the electrical excitability of the neuromuscular system by various methods [1]
Known electrical stimulator containing a rectangular signal generator with adjustable frequency, a modulator, a triangular signal generator with adjustable frequency and amplitude, a power amplifier connected by outputs to the electrodes of exposure.

 A known device is used to stimulate the neuromuscular system. However, the effect is carried out only by alternating current, which limits the functionality of the device.

 The closest in technical essence is a device for exposure to electric current, comprising a carrier frequency signal generator associated with the first input of the modulator, a low-frequency triangular signal generator, a unipolar pulse generator, an indication unit, a switching unit and a power amplifier associated with the exposure electrodes [2] The known device allows you to act with an electric pulse unipolar current or a pulse current with filling pulses with carrier frequency signals. However, in the known device there is no possibility of regulating the interval between pulses and exposure to alternating current in a continuous mode. In addition, the presence of only one output channel does not allow to act on muscle antagonists. This reduces the functionality of the device.

 the proposed solution extends the functionality of the device. This is achieved by the fact that the proposed device comprises a carrier frequency signal generator connected to the first modulator input, a low-frequency triangular signal driver, a unipolar pulse generator, an indication unit, a switching unit and a power amplifier connected to the exposure electrodes, characterized in that generator of rectangular signals of low frequency with the ability to control its frequency and amplitude, adder, chopper, analog-to-digital converter, one of the outputs of which it is accessible to the current strength indication unit, a peak detector, an integrator and a comparator connected in series, as well as a protection unit, a timer, an audible alarm unit, a current transducer connected by inputs to the outputs of the power amplifier, and outputs through a peak detector to the inputs of an analog-to-digital converter, others whose outputs and the output of the comparator are connected to the corresponding inputs of the protection unit, while the carrier frequency signal generator is tunable, the low-frequency triangular signal generator is made in the form of a generator of triangular signals with the ability to control its frequency and amplitude and is connected to the first input of the adder, the second input of which is connected to the output of a controlled generator of rectangular signals of low frequency, and the output with the second input of the modulator, the shaper of unipolar pulses is made with the possibility of changing the pulse duration, the repetition period pulses and the duration of the pulse front, the power amplifier is made two-channel, and the switching unit includes switches of the kind of work, switch the polarity of the output current, the switch of the output channels and the regulator of the output current connected to the output switch of the switching unit, the signal inputs of the switching unit being connected respectively to the outputs of the modulator, unipolar pulse generator and chopper, the signal outputs to the inputs of the power amplifier, and the control inputs are outputs to the corresponding outputs-inputs of the timer and the protection unit, the additional outputs of which are connected to the sound alarm unit.

 The impact electrodes are removable and can be of various designs and purposes, which expands the capabilities of the device. The expansion of the device’s functionality is also achieved by the fact that the current converter has an additional output for connecting external recording and / or analyzing devices, for example, a myograph. To control the current strength acting on the patient through two channels, which improves the functional and operational parameters of the device, a peak detector, an integrator, an analog-to-digital converter, and a current display unit are made dual-channel.

 The essence of the invention lies in the fact that in one device the possibilities of influencing a patient with an alternating current of adjustable frequency with triangular and rectangular modulation of this current are combined, the frequency and depth of modulation of the alternating current being regulated within wide limits, and the exposure can be carried out in continuous or intermittent modes one at a time or two channels, and the possibility of exposing the patient to one or two channels with unipolar trapezoidal pulses with adjustable duration, period after IAOD front time.

 Figure 1 presents the structural diagram of the device, figure 2 9 plots of its output voltages.

 The device comprises a carrier frequency signal generator 1 with a frequency controller 2, the output connected to the first input of the modulator 3, the second input of which is connected through an adder 4 to the outputs of the controlled generator 5 of low-frequency triangular signals with frequency and amplitude controllers 6 and 7 and the low-frequency rectangular signal generator 8 frequencies with regulators 9 and 10 of frequency and amplitude, and an output with one of the signal inputs of the switching unit 11, the other signal inputs connected to an AC chopper 12 and a single driver 13 of regular shape pulses with regulators 14, 15, and 16 of the pulse duration, the pulse repetition period, and the duration of the pulse front, respectively, and the duration of the leading edge is equal to the duration of the trailing edge and is regulated so that the pulse shape varies from rectangular to triangular. The device also contains a two-channel power amplifier 17, the inputs of which are connected to the signal blocks 11, and the outputs are connected to two pairs 18, 19 of the action electrodes and the inputs of the two-channel current converter 20, connected by the outputs through the two-channel peak detector to the inputs of the two-channel integrator 22 and two-channel analog a digital converter 23, the outputs of which are connected to the corresponding inputs of the two-channel current indicating unit 24 and the protection unit 25, a comparator 34 connected to its input by the integrator 22, and the output with the corresponding input of the protection unit 25, the audible alarm unit 26 and the timer 27. In this case, the switching unit 11 includes operation switches 28, 29, a polarity switch 30, an output channel switch 31, and an output signal intensity regulator 32 ( current), interlocked with the switch 33 of the output signal of the switching unit 11, controlling the inputs and outputs associated with the corresponding outputs of the protection unit 25 and the timer 27, the additional outputs of which are connected to the sound unit 26 isations. The current converter 20 has an additional output 35 for connecting external recording and analyzing devices, for example, a myograph.

 The device operates as follows. The carrier frequency generator 1 generates an ac voltage of a rectangular shape (meander) and constant amplitude, which is supplied to the modulator and then to the switching unit 11. The controller 2 of the carrier frequency allows you to smoothly adjust it in the range of 2 5 kHz. The generator 5 of triangular signals generates an alternating voltage of a triangular shape, which is supplied to the adder 4 and further to the modulator 3. Regulators 6 and 7 of the frequency and amplitude allow you to smoothly adjust the frequency in the range of 0.25 to 2 Hz, and the amplitude at the output of the generator 5 is within such limits so that the depth of the modulation of the carrier frequency is from 0 to 100%. A rectangular signal generator 8 generates an ac voltage of a rectangular shape, which is fed to the adder and then to the modulator 3. The frequency and amplitude controls 9 and 10 allow smooth adjust the frequency in the range of 5 to 150 Hz, and the amplitude at the output of the generator 8 within such a range that the modulation depth is from 0 to 100%. The voltage shape at the output of the device with zero triangular and rectangular modulation is shown in figure 2, with a non-zero depth 3, with a non-zero depth of rectangular modulation and a zero depth of triangular modulation in FIG. 4, with a non-zero depth of triangular and rectangular modulation in FIG. 5. The modulated signal enters the switching unit 11. When the switch 28 of the kind of work "Pulse / variable", located in the position "variable", and the switch 29 "Continuous / intermittent", in the position "continuous", the switching unit 11 provides a mode of continuous exposure to alternating modulated current on the patient (figure 2 5). With the switch 28 "Pulse / variable", located in the position "variable", and the switch 29 "Continuous / intermittent", in the position "intermittent", the switching unit 11 provides a mode of exposure to the patient by bursts of alternating modulated current with a duration of bursts of 1 s and pauses between them 2 s. To ensure this mode, a chopper 12 is used, connected by its output to the switching unit 11. An example of such a mode with a non-zero depth of triangular modulation and a zero depth of rectangular modulation is shown in Fig.6.

 To influence a patient with unipolar current pulses with adjustable parameters (the shape of this signal is shown in Fig. 7), a pulse shaper 13 with regulators 14, 15, 16 pulse duration, pulse repetition period, pulse front duration, the output of which is connected to the output of the unit, is introduced into the device 11 commutation. The switch 28 "Pulse / variable" is set to "Pulse". The pulse generator 13 operates in such a way that the leading and trailing edges of the pulses are equal to each other. The pulse duration is adjustable from 0.2 to 200 ms, the pulse repetition period is from 2 ms to 5 s, the front duration is from zero to half the pulse duration (in this case, the pulse shape smoothly changes from rectangular to triangular).

 With a rectangular shape of the pulses and a period of their repetition equal to or shorter than the pulse duration, the pulsed unipolar current degenerates into a constant (galvanic) current.

 In the switching unit 11, with the help of the intensity controller 32, the amplitude of the signal is adjusted, which is supplied from the switching unit 11 to a two-channel power amplifier 17, which converts this signal into a current acting on the patient. With the controller 32, the switch 33 of the output signal of the switching unit 11 is blocked, so the current acting on the patient, when this unit is included in the circuit of a two-channel power amplifier 17, can be set and adjusted only from the minimum value. The functions of the switching unit 11 also includes turning off and blocking the signal to the two-channel power amplifier 17 according to the instructions of the timer 27 or the protection unit 25. The blocking is released by disconnecting the switching unit 11 from the two-channel power amplifier 17 using the switch 33. The polarity switch 30 included in the switching unit 11 switches the polarity of the pulse current, and the channel switch 31 provides communication of the switching unit 11 with the first input or with both inputs of the two-channel power amplifier 17 and, accordingly, supplying an output voltage to only one pair of impact electrodes 18 or to both pairs 18, 19.

 In the latter case, when the device is operating in alternating current mode, voltage is applied to the action electrodes 18 and 19 in phase, while when operating in alternating discontinuous current and pulse current modes, voltage is applied to the action electrodes 18 and 19 at corresponding positions of the switches 28, 29, 30 and in antiphase (as shown in Figs. 8 and 9). The latter mode is most effective when acting on antagonist muscles.

 The signals from the two-channel power amplifier 17 are fed to the two-channel current converter 20. The output voltages from the current transducer 20 are supplied to a two-channel peak detector 21, the signals from which are fed to a two-channel analog-to-digital converter 23 (ADC) and, further, to a two-channel display unit 24, which consists of two lines of LEDs equipped with scales. A current converter 20, a detector 21, a two-channel ADC 23, and an indication unit 24 form two milliammeters graduated in amplitude values.

 The voltages generated by the two-channel ADC 23 from the signals of the peak detector 21 are also signals controlling the protection units 25. When the amplitude value of the current strength is significantly less than 1 mA, which will occur when the device is turned on without applying electrodes to the patient (idle mode), the signal and the protection unit 25 are supplied via the "output xx" bus. When the amplitude value of the current exceeds 100 mA, which will occur when the device is turned on with closed electrodes or when the two-channel power amplifier fails, the signal is sent to the protection unit 25 via the "output KZ" bus. To generate a protection signal, an integrator 22, connected by its input to one of the outputs of the peak detector 21, and a comparator 34, connected by its input to the output of the integrator 22 are also used. When the average current reaches 70 mA, the signal from the comparator 34 is fed to the protection unit 25 on the bus "exit gt". In all cases, the output signal of the switching unit 11 at the command of the protection unit 25 is disconnected from the input of the two-channel power amplifier 17 and the audible alarm unit 26 is turned on.

 The procedure time is set by the controller included in the timer 27. The timer 27 is started by the switch 33 of the switching unit 11. After the set time of the procedure is completed by the command of the timer 27, the output signal of the switching unit 11 is disconnected from the input of the two-channel power amplifier 17, and the sound alarm unit 26 is turned on.

 Thus, in one device all currents used in world medical practice are combined: low-frequency with frequency control, low-frequency with "fast" and "slow" modulation with frequency and depth of modulation control, pulsed with low-frequency filling (intermittent), unipolar trapezoidal pulsed with regulation of the duration, repetition period and shape of pulses from rectangular to triangular, constant (galvanic). This allows you to use all known methods of electrical stimulation of the neuromuscular system with both preserved innervation and denervated muscles, combine all methods of electrical diagnostics of the neuromuscular system, conduct electroanalgesia and sedative effects on the central nervous system, as well as perform percutaneous electroneurostimulation of the peripheral nervous system system. These features of the device increase its therapeutic effectiveness while reducing weight and dimensions.

Claims (3)

 1. Device for exposure to electric current, comprising a carrier frequency signal generator associated with the first input of the modulator, a low-frequency triangular signal driver, a unipolar pulse generator, an indication unit, a switching unit and a power amplifier associated with the exposure electrodes, characterized in that a low-frequency rectangular signal generator with the ability to control its frequency and amplitude, an adder, a chopper, an analog-to-digital converter, one of whose outputs connected to the current strength indication unit, a peak detector, an integrator and a comparator connected in series, as well as a protection unit, a timer, an audible alarm unit, a current transducer connected to the outputs of the power amplifier by inputs and outputs through a peak detector to the inputs of an analog-to-digital converter, others whose outputs and the output of the comparator are connected to the corresponding inputs of the protection unit, while the carrier frequency signal generator is tunable, the low-frequency triangular signal generator n in the form of a generator of triangular signals with the possibility of controlling its frequency and amplitude and is connected to the first input of the adder, the second input of which is connected to the output of the controlled generator of rectangular signals of low frequency, and the output with the second input of the modulator, the unipolar pulse generator is configured to change the pulse duration, the pulse repetition period and the duration of the pulse front, the power amplifier is made two-channel, and the switching unit includes switches of the kind of work, switch an output current polarity changer, an output channel selector, and an output current regulator associated with the output signal switch of the switching unit, the signal inputs of the switching unit being connected respectively to the outputs of the modulator, unipolar pulse generator and chopper, the signal outputs to the inputs of the power amplifier, and the control inputs are outputs to the corresponding outputs-inputs of the timer and the protection unit, the additional outputs of which are connected to the sound alarm unit.  2. The device according to claim 1, characterized in that the exposure electrodes are removable.  H. The device according to claims 1 and 2, characterized in that the current transducer has an additional output for connecting external recording and / or analyzing devices.  4. The device according to paragraphs. 1-3, characterized in that the peak detector, integrator, analog-to-digital Converter and the display unit of the current strength are made dual-channel.

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